Eulerian direct interaction applied to the statistical motion of particles in a turbulent fluid

M. W. Reeks

doi:10.1017/S0022112080002704

Abstract

Eulerian direct interaction is used to close Liouville's equation central to the transport of particles in a turbulent fluid where the dominant drag force is derived from the particle and local fluid velocities. The reliability of the equation is then tested by comparison of solutions with those of a computer simulation of particle motion with Stokes drag in a random velocity field. Using an empirical drag law accurate for particle Reynolds numbers up to 500, formulae are derived for the statistical moments central to particle dispersion for a weak drag force operating in a Gaussian isotropic stationary velocity field. These show for instance that the long time particle diffusion coefficient is in general greater than the equivalent value based on Stokes drag.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

HILL, JAMES C. 1981. HEAT TRANSFER IN ISOTROPIC TURBULENCE. Chemical Engineering Communications, Vol. 12, Issue. 1-3, p. 69.

Reeks, M.W. 1983. The transport of discrete particles in inhomogeneous turbulence. Journal of Aerosol Science, Vol. 14, Issue. 6, p. 729.

Reeks, M. W. and McKee, S. 1984. The dispersive effects of Basset history forces on particle motion in a turbulent flow. The Physics of Fluids, Vol. 27, Issue. 7, p. 1573.

Reeks, M. W. 1984. Atmospheric Dispersion of Heavy Gases and Small Particles. p. 221.

Picart, A. Berlemont, A. and Gouesbet, G. 1986. Modelling and predicting turbulence fields and the dispersion of discrete particles transported by turbulent flows. International Journal of Multiphase Flow, Vol. 12, Issue. 2, p. 237.

Dahe, Jiang 1988. Frontiers of Fluid Mechanics. p. 813.

Derevich, I.V. and Zaichik, L.I. 1990. An equation for the probability density, velocity, and temperature of particles in a turbulent flow modelled by a random Gaussian field. Journal of Applied Mathematics and Mechanics, Vol. 54, Issue. 5, p. 631.

Parthasarathy, R. N. and Faeth, G. M. 1990. Turbulent dispersion of particles in self-generated homogeneous turbulence. Journal of Fluid Mechanics, Vol. 220, Issue. , p. 515.

Derevich, I. V. and Eroshenko, V. M. 1990. Modeling nonlocal mass transfer of a dispersed impurity in turbulent flows of a gas suspension. Journal of Engineering Physics, Vol. 59, Issue. 3, p. 1157.

Yeh, Fungee and Lei, U. 1991. On the motion of small particles in a homogeneous isotropic turbulent flow. Physics of Fluids A: Fluid Dynamics, Vol. 3, Issue. 11, p. 2571.

Yeh, Fungee and Lei, U. 1991. On the motion of small particles in a homogeneous turbulent shear flow. Physics of Fluids A: Fluid Dynamics, Vol. 3, Issue. 11, p. 2758.

Reeks, M. W. 1991. On a kinetic equation for the transport of particles in turbulent flows. Physics of Fluids A: Fluid Dynamics, Vol. 3, Issue. 3, p. 446.

Wang, L. P. Maxey, M. R. Burton, T. D. and Stock, D. E. 1992. Chaotic dynamics of particle dispersion in fluids. Physics of Fluids A: Fluid Dynamics, Vol. 4, Issue. 8, p. 1789.

Reeks, M. W. 1992. On the continuum equations for dispersed particles in nonuniform flows. Physics of Fluids A: Fluid Dynamics, Vol. 4, Issue. 6, p. 1290.

Derevich, I. V. 1993. Turbulent diffusion of inertial particles in the field of mass forces. Journal of Engineering Physics and Thermophysics, Vol. 64, Issue. 2, p. 107.

Reeks, M. W. 1993. On the constitutive relations for dispersed particles in nonuniform flows. I: Dispersion in a simple shear flow. Physics of Fluids A: Fluid Dynamics, Vol. 5, Issue. 3, p. 750.

Hyland, K.E. and Reeks, M.W. 1995. Multiphase Flow 1995. p. 41.

Stock, David E. 1996. Particle Dispersion in Flowing Gases—1994 Freeman Scholar Lecture. Journal of Fluids Engineering, Vol. 118, Issue. 1, p. 4.

Mei, Renwei Adrian, R. J. and Hanratty, T. J. 1997. Turbulent Dispersion of Heavy Particles With Nonlinear Drag. Journal of Fluids Engineering, Vol. 119, Issue. 1, p. 170.

Hyland, K E McKee, S and Reeks, M W 1999. Derivation of a pdf kinetic equation for the transport of particles in turbulent flows. Journal of Physics A: Mathematical and General, Vol. 32, Issue. 34, p. 6169.

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Eulerian direct interaction applied to the statistical motion of particles in a turbulent fluid

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